10 FZ07NBA030SM01 P914L53 D1 19

10-FZ07NBA030SM01-P914L53
application sheet
DC Boost Application
flow Boost 0 symmetric
650 V / 30 A
General conditions
BOOST
15 V
=
=
0V
16 Ω
=
=
16 Ω
V GEon
V GEoff
R gon
R goff
Figure 1.
IGBT
Figure 2.
Typical average static loss as a function of
input current IiRMS
P loss=f(I in)
FRED
Typical average static loss as a function of
input current IiRMS
P loss=f(I in)
200
Ploss (W)
Ploss (W)
250
180
Vin/Vout=1
Vin/Vout=0,2
160
200
140
150
120
100
100
80
60
50
40
20
Vin/Vout=0,2
Vin/Vout=1
0
0
0
10
Conditions:
20
30
40
T j=
150
°C
50
60
0
80
10
Conditions:
Ratio of input DC voltage to output DC voltage
parameter:V in/Vout
from
0,2
to
in
70Iin (A)
0,2
20
T j=
30
40
150
°C
60
Ratio of input DC voltage to output DC voltage
parameter:V in/Vout
from
0,2
to
1,0
steps
in
Figure 3.
50
IGBT
0,2
70Iin (A)
1,0
steps
Figure 4.
Typical average switching loss as a function of
input current
P loss=f(I in)
80
FRED
Typical average switching loss as a function of
input current
P loss=f(I in)
Ploss (W)
80,0
Ploss (W)
250,0
fsw="to" kHz
fsw="to" kHz
70,0
200,0
60,0
50,0
150,0
40,0
100,0
30,0
20,0
50,0
10,0
fsw="from" kHz
fsw="from" kHz
0,0
0
10
20
Conditions:
T j=
V out =
Sw. freq. f sw from
30
150
400
16
40
50
°C
V
kHz to
60
70
Iin (A)
0,0
80
0
128
T j=
V out =
Sw. freq. f sw from
kHz
in steps of factor 2
copyright Vincotech
10
Conditions:
20
30
150
400
16
40
50
°C
V
kHz to
60
128
70 Iin (A)
80
kHz
in steps of factor 2
1
04 May. 2016 / Revision 1
10-FZ07NBA030SM01-P914L53
application sheet
DC Boost Application
flow Boost 0 symmetric
Figure 5.
per Leg
Figure 6.
Typical available input current as a function of
V in/Vout
I in=f(V in/Vout)
per Leg
Typical available input current as a function of
switching frequency
I in=f(f sw)
40
Iin (A)
40
Iin (A)
650 V / 30 A
35
Th=60°C
35
Th=60°C
30
30
25
25
20
20
Th=100°C
Th=100°C
15
15
10
10
5
5
0
0,1
0,2
Conditions:
DC-link=
0,3
0,4
0,5
0,6
T j= T jmax-25°C
400
V
parameter:Heatsink temp.
T h from
in
0,7
f sw=
0,8
20
60
°C to
100
10
°C
steps
Figure 7.
0
0,9
1,0
Vin/Vout
1
kHz
Conditions:
DC-link=
°C
parameter:Heatsink temp.
T h from
per Leg
100
T j= T jmax-25°C
400
V
in
fsw (kHz)
V in
250
V
°C
60
°C to
100
10
°C
steps
Figure 8.
Typical available input current as a function of
f sw and V in/Vout
I in=f(f sw,Vin/Vout)
Iin (A)
10
1000
per Leg
Typical available electric input power as a function
of heatsink temperature
P in=f(T h)
10,0
Pin (kW)
0,10
0,20
9,0
"from" kHz
8,0
0,30
7,0
0,40
28,0-34,0
6,0
Vin/Vout
0,50
22,0-28,0
5,0
16,0-22,0
0,60
4,0
10,0-16,0
4,0-10,0
0,70
3,0
0,80
2,0
to" kHz
8
16
32
64
128
1,0
0,90
256
0,0
50
55
60
65
70
75
80
fsw (kHz)
Conditions:
T j= T jmax-25°C
DC-link=
400 V
T h=
80 °C
copyright Vincotech
Conditions:
T j= T jmax-25°C
V in
250 V
Sw. freq.
f sw from
16
2
DC-link=
kHz to
85
90
95
100
Th ( o C)
400 V
128
kHz
04 May. 2016 / Revision 1
10-FZ07NBA030SM01-P914L53
application sheet
DC Boost Application
flow Boost 0 symmetric
Figure 9.
650 V / 30 A
per Leg
efficiency (%)
Typical efficiency as a function of
input power
η=f(Pin)
100,0
99,5
99,0
"from" kHz
98,5
98,0
97,5
97,0
"to" kHz
96,5
96,0
95,5
95,0
0
Conditions:
V in
2
4
6
8
T j= T jmax-25°C
250 V
parameter:
Sw. freq.
f sw from
copyright Vincotech
16
10
12
DC-link=
kHz to
14
16
18
20
P in (kW)
400 V
128 kHz
3
04 May. 2016 / Revision 1
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